Feeling-expressing-word processing device, feeling-expressing-word processing method, and feeling-expressing-word processing program

ABSTRACT

The present approach enables an impression of the atmosphere of a scene or an object present in the scene at the time of photography to be pictured in a person&#39;s mind as though the person were actually at the photographed scene. A feeling-expressing-word processing device has: a feeling information calculating unit  11  for analyzing a photographed image, and calculating feeling information which indicates a situation of a scene portrayed in the photographed image or a condition of an object present in the scene; and a feeling-expressing-word extracting unit  12  for extracting, from among feeling-expressing words which express feelings and are stored in a feeling-expressing-word database  21  in association with the feeling information, a feeling-expressing word which corresponds to the feeling information calculated by the feeling information calculating unit  11.

BACKGROUND

The present invention relates to a feeling-expressing-word processingdevice, a feeling-expressing-word processing method, and afeeling-expressing-word processing program.

We sometimes desire to convey an atmosphere of a certain place toanother person from afar. In such a case, by taking a photograph ofone's surroundings with a camera or the like and showing them to theother person, an atmosphere of the place where the photograph was takencan be conveyed. However, simply taking a photograph of a scene with acamera or the like is insufficient when attempting to fully convey theatmosphere of the place where the photograph was taken. An example of atechnique for solving such a problem involves a character insertingdevice described in Patent Document 1. According to this characterinserting device, a character-added image is generated by convertingauditory information such as contents of conversation or ambient soundat the time of photography into characters and inserting the convertedcharacters into a photographed image.

-   Patent Document 1: Patent Publication JP-A-2003-18462

A person pictures, in his or her mind, an impression of the atmosphereof a scene or an object present at the scene portrayed in a photographedimage based on visual information such as a situation of the scene, acondition of the object, a temporal change in the scene, and a movementof the object. For example, when viewing an image portraying a bustlewith a large number of people, one may feel that the scene is “gochagocha (word describing a jumble or a mess)”. However, there may be caseswhere visual information, as represented by a situation of a scene or acondition of an object in the scene, cannot be readily recognized fromwhat is portrayed in a photographed image. In such cases, if charactersexpressing visual information can be viewed, an impression of theatmosphere of a scene or an object present in the scene can be picturedmore clearly.

Since the character inserting device described in Patent Document 1inserts characters converted from auditory information into an image,the character inserting device is unable to express an impression of theatmosphere of a scene or an object present in the scene which isobtained from visual information.

SUMMARY

The present invention has been made in order to solve the problemdescribed above, and an object thereof is to provide afeeling-expressing-word processing device, a feeling-expressing-wordprocessing method, and a feeling-expressing-word processing programwhich enable an impression of the atmosphere of a scene or an objectpresent in the scene at the time of photography to be pictured in aperson's mind as though the person was actually at the photographedscene.

A feeling-expressing-word processing device according to the presentinvention has: a feeling information calculating unit for analyzing aphotographed image, and calculating feeling information which indicatesa situation of a scene shown in the photographed image or a condition ofan object present in the scene; and a feeling-expressing-word extractingunit for extracting, from among feeling-expressing words which expressfeelings and are stored in advance in association with the feelinginformation, a feeling-expressing word which corresponds to the feelinginformation calculated by the feeling information calculating unit.

A feeling-expressing-word processing method according to the presentinvention includes: a feeling information calculating step of analyzinga photographed image, and calculating feeling information whichindicates a situation of a scene shown in the photographed image or acondition of an object present in the scene; and a feeling-expressingword extracting step of extracting, from among feeling-expressing wordswhich express feelings and are stored in advance in association with thefeeling information, a feeling-expressing word which corresponds to thefeeling information calculated by the feeling information calculatingunit.

A feeling-expressing-word processing program according to the presentinvention causes a computer to execute the steps included in thefeeling-expressing-word processing method described above.

According to the present invention, an impression of the atmosphere of ascene or an object present in the scene at the time of photography canbe pictured in a person's mind as though the person was actually at thephotographed scene.

DESCRIPTION OF THE DRAWINGS

FIG. 1 is a block diagram illustrating a configuration of afeeling-expressing-word processing device according to a firstembodiment;

FIG. 2 is a diagram illustrating a data configuration of a number offaces table;

FIG. 3 is a diagram illustrating a data configuration of a face tilttable;

FIG. 4 is a diagram illustrating a data configuration of a degree ofsmile table;

FIG. 5 is a flow chart for describing an operation of thefeeling-expressing-word processing device according to the firstembodiment;

FIG. 6 is a block diagram illustrating a configuration of afeeling-expressing-word processing device according to a secondembodiment;

FIG. 7 is a diagram illustrating a data configuration of a number offingers table;

FIG. 8 is a flow chart for describing an operation of thefeeling-expressing-word processing device according to the secondembodiment;

FIG. 9 is a block diagram illustrating a configuration of afeeling-expressing-word processing device according to a thirdembodiment;

FIG. 10 is a diagram illustrating a data configuration of a directionquantifying table;

FIG. 11 is a diagram illustrating a data configuration of a number ofdynamic bodies table;

FIG. 12 is a diagram illustrating a data configuration of a dynamic bodytravel distance table;

FIG. 13 is a diagram illustrating a data configuration of a dynamic bodytransition information table;

FIG. 14 is a diagram illustrating a data configuration of a luminancechange table;

FIG. 15 is a flow chart for describing an operation of thefeeling-expressing-word processing device according to the thirdembodiment;

FIG. 16 is a block diagram illustrating a configuration of afeeling-expressing-word processing device according to a fourthembodiment;

FIG. 17 is a diagram illustrating a feeling-expressing-word superimposedimage displayed on a display device;

FIG. 18 is a block diagram illustrating a configuration of afeeling-expressing-word processing device according to a fifthembodiment;

FIG. 19 is a block diagram illustrating a configuration of afeeling-expressing-word processing device according to a sixthembodiment;

FIG. 20 is a block diagram illustrating a configuration of afeeling-expressing-word processing device according to a seventhembodiment;

FIG. 21 is a diagram illustrating a feeling-expressing-word superimposedimage displayed on a display device; and

FIG. 22 is a block diagram illustrating a configuration of afeeling-expressing-word processing device according to an eighthembodiment.

DETAILED DESCRIPTION

Hereinafter, preferred embodiments of a feeling-expressing-wordprocessing device, a feeling-expressing-word processing method, and afeeling-expressing-word processing program according to the presentinvention will be described with reference to the accompanying drawings.

The feeling-expressing-word processing device, thefeeling-expressing-word processing method, and thefeeling-expressing-word processing program according to the presentinvention analyze an inputted photographed image to calculate feelinginformation, and based on the feeling information, extract and output afeeling-expressing-word corresponding to a situation of a sceneportrayed in the photographed image, a condition of an object in thescene, a change in the scene, or a movement of the object.

Examples of the photographed images include a single frame image(hereinafter, referred to as a “still image”) comprising a video signaland a group of frame images (hereinafter, referred to as a “movingimage”).

Feeling information is information indicating a situation of a sceneportrayed in the photographed image, a condition of an object in thescene, a temporal change in the scene, or a movement of the object.Examples of information indicating a situation of a scene or a conditionof an object in the scene include number of peoples' faces, a tilt of aface, a degree of a smile, and number of extended fingers. Examples ofinformation indicating a temporal change in a scene or a movement of anobject include number of regions with significant movement (hereinafter,referred to as “dynamic bodies”), a travel distance of a dynamic body,transition information of a dynamic body, and a change in luminance ofan image due to lighting being turned on or off (hereinafter, referredto as “luminance change”).

Feeling-expressing words are words which express, based on visualinformation such as a situation of a scene portrayed in a photographedimage, a condition of an object in the scene, a temporal change in thescene, or a movement of the object, an impression (a feeling) of theatmosphere of the scene or the object as received by a person havingviewed the photographed image. Typical feeling-expressing words includeonomatopoeic words and mimetic words. An example of an onomatopoeic wordis “wai wai (word describing a large number of people behavingboisterously; making a din)” which expresses a boisterous atmosphere ofthe scene. An example of a mimetic word is “noro noro (word describingmoving slowly; sluggishly) which expresses a slow movement of a dynamicbody.

First Embodiment

A feeling-expressing-word processing device according to a firstembodiment represents an example where a signal of a still image isinputted as an input signal, the number of peoples' faces, a tilt of aface, or a degree of a smile in the still image is calculated as feelinginformation, and a feeling-expressing word corresponding to the feelinginformation is extracted and outputted.

First, a configuration of the feeling-expressing-word processing deviceaccording to the first embodiment will be described with reference toFIG. 1.

A feeling-expressing-word processing device 1 is physically configuredso as to include, for example, a CPU (central processing unit), astorage device, and an input/output interface. For example, the storagedevice contains elements of a ROM (read only memory) and an HDD (harddisk drive) which store programs and data processed by the CPU, a RAM(random access memory) which is mainly used as various work areas forcontrol processing, and the like. These elements are connected with oneanother via a bus. By executing programs stored in the ROM to processsignals received via the input/output interface and data deployed on theRAM, the CPU is capable of realizing functions of various units (to bedescribed later) which constitute the feeling-expressing-word processingdevice 1.

As shown in FIG. 1, the feeling-expressing-word processing deviceaccording to the first embodiment functionally includes a feelinginformation calculating unit 11 and a feeling-expressing-word extractingunit 12. The feeling information calculating unit 11 includes a facedetecting unit 111.

The face detecting unit 111 detects faces by analyzing an inputted stillimage, and calculates feeling information by calculating the number offaces, a tilt of a face, or a degree of a smile. For example, atechnique described in Patent Publication JP-A-2007-233517 can be usedas a method for calculating the number of faces or the tilt of a face.In addition, for example, a technique described in Patent PublicationJP-A-2009-141516 can be used as a method for calculating the degree of asmile.

The feeling-expressing-word extracting unit 12 extracts afeeling-expressing-word corresponding to the feeling informationcalculated by the feeling information calculating unit 11 from afeeling-expressing-word database 21 and outputs the extractedfeeling-expressing-word. For example, text data, still image metadatasuch as Exif (exchangeable image file format), tag information formoving picture search, and audio/acoustic data associated in advancewith feeling-expressing words can be used as a data format foroutputting feeling-expressing words.

The feeling-expressing-word database 21 has one or a plurality of tableswhich indicates a correspondence relationship between feelinginformation and feeling-expressing words. The correspondencerelationship between feeling information and feeling-expressing wordsmay be any of one-to-one, one-to-many, many-to-one, and many-to-many.When a plurality of feeling-expressing words is associated with onepiece of feeling information, a feeling-expressing word may be selectedrandomly, selected according to a predetermined order, or selectedaccording to other criteria.

The feeling-expressing-word database 21 according to the firstembodiment has a number of faces table, a face tilt table, and a degreeof smile table.

A data configuration of the number of faces table will be described withreference to FIG. 2. Examples of data items of the number of faces tableinclude a number of faces item and a feeling-expressing-word item. Thenumber of faces item stores the number of faces detected by the facedetecting unit 111. The feeling-expressing-word item storesfeeling-expressing-words corresponding to the number of faces. As thefeeling-expressing words in the number of faces table, words that moredramatically express the excitement at a scene are used in proportion tothe number of faces.

Using the number of faces table shown in FIG. 2, “shiin” is extracted asa feeling-expressing word when the number of faces is “0”, “niko (worddescribing someone smiling)” is extracted as a feeling-expressing wordwhen the number of faces is “1”, and “wai wai” is extracted as afeeling-expressing word when the number of faces is “2” or more.

A data configuration of the face tilt table will be described withreference to FIG. 3. Examples of data items of the face tilt tableinclude a tilt of face 1 item, a tilt of face 2 item, and afeeling-expressing-word item. The tilt of face 1 item and the tilt offace 2 item respectively store the tilt of faces detected by the facedetecting unit 111. A tilt of a face is expressed using values rangingfrom “−90” degrees to “90” degrees, where a face turned straight forwardis assumed to have an angle of “0” and a clockwise rotation from astraight-forward state is assumed to be positive. Therefore, when twofaces side by side are tilted so as to face each other, the tilt of face1 and the tilt of face 2 respectively have positive and negative values.Feeling-expressing words corresponding to the tilt of face 1 and thetilt of face 2 are stored in the feeling-expressing word item. As thefeeling-expressing words in the face tilt table, words that more deeplyexpress intimacy are used as the tilts of two faces side by sideincrease in directions approaching each other.

Using the face tilt table shown in FIG. 3, “rabu rabu (Japanesetranscription of “love love” roughly corresponding to lovey-dovey) or“icha icha (word roughly corresponding to kissy-kissy or lovey-dovey)”is extracted as a feeling-expressing word when the tilt of face 1 rangesfrom “0” to “90” and the tilt of face 2 ranges from “−90” to “0”, and“rabu rabu” or “icha icha” is extracted as a feeling-expressing wordwhen the tilt of face 1 ranges from “−90” to “0” and the tilt of face 2ranges from “0” to “90”.

A data configuration of the degree of smile table will be described withreference to FIG. 4. Examples of data items of the degree of smile tableinclude a degree of smile item and a feeling-expressing-word item. Thedegree of smile item stores a range of a degree of a smile detected bythe face detecting unit 111. A degree of a smile is expressed using avalue normalized so as to range from “0.0” to “1.0”. Thefeeling-expressing-word item stores feeling-expressing-wordscorresponding to the degree of smile. As the feeling-expressing words inthe degree of smile table, words that more dramatically expresshappiness or joy are used as the degree of smile increases, and wordsthat more dramatically express anger or sadness are used as the degreeof smile decreases.

Using the degree of smile table shown in FIG. 4, “ha (word roughlycorresponding to oh, ah, or phew)” or “fu (word roughly corresponding tophew)” is extracted as a feeling-expressing word when the degree ofsmile is equal to or higher than “0.0” and lower than “0.1”, “fufu (wordroughly corresponding to ha ha; a giggling sound)” or “mufu (wordroughly corresponding to hum; a giggling sound)” is extracted as afeeling-expressing word when the degree of smile is equal to or higherthan “0.1” and lower than “0.2”, and “niko niko (word describing someonesmiling happily; all smiles)” or “kira kira (word roughly correspondingto twinkle twinkle; gleaming)” is extracted as a feeling-expressing wordwhen the degree of smile is equal to or higher than “0.9” and equal toor lower than “1.0”.

Moreover, the number of faces, the tilt of a face, and the degree of asmile may be expressed using values other than those described above. Inaddition, as feeling information, any one of the number of faces, thetilt of a face, and the degree of a smile may be used, or a pluralitymay be used in combination.

Next, an operation of the feeling-expressing-word processing deviceaccording to the first embodiment will be described with reference toFIG. 5. For this operation example, a case where the number of faces isused as feeling information will be described.

First, when a signal of a still image is inputted to thefeeling-expressing-word processing device 1, the face detecting unit 111of the feeling information calculating unit 11 detects faces portrayedin the still image (step S101).

Subsequently, the feeling-expressing-word extracting unit 12 judgeswhether or not the number of faces detected in step S101 is 2 or more(step S102). When a “yes” judgment is made (YES in step S102), thefeeling-expressing-word extracting unit 12 extracts and outputs thefeeling-expressing word “wai wai” which is stored in association with “2or more” faces from the number of faces table of thefeeling-expressing-word database 21 shown in FIG. 2 (step S103).Subsequently, the present operation is terminated.

On the other hand, when it is judged in step S102 that the number offaces is not 2 or more (NO in step S102), the feeling-expressing-wordextracting unit 12 judges whether or not the number of faces is 1 (stepS104). When a “yes” judgment is made (YES in step S104), thefeeling-expressing-word extracting unit 12 extracts and outputs thefeeling-expressing word “niko” which is stored in association with “1”face from the number of faces table (step S105). Subsequently, thepresent operation is terminated.

On the other hand, when it is judged in step S104 that the number offaces is not 1 (NO in step S104), the feeling-expressing-word extractingunit 12 extracts and outputs the feeling-expressing word “shiin” whichis stored in association with “0” faces from the number of faces table(step S106). Subsequently, the present operation is terminated.

As described above, with the feeling-expressing-word processing device 1according to the first embodiment, feeling-expressing wordscorresponding to the number of faces, a tilt of a face, or a degree of asmile in a still image can be extracted and outputted. Accordingly,since a situation of a scene or a condition of an object present in thescene at the time of photography of a still image can be clarified andemphasized, an impression of the atmosphere of the scene or the objectcan be pictured in a person's mind as though the person was actually atthe photographed scene.

Second Embodiment

Next, a feeling-expressing-word processing device according to a secondembodiment will be described. The feeling-expressing-word processingdevice according to the second embodiment represents an example where asignal of a still image is inputted as an input signal, the number ofextended fingers in the still image is calculated as feelinginformation, and a feeling-expressing word corresponding to the feelinginformation is extracted and outputted.

First, a configuration of the feeling-expressing-word processing deviceaccording to the second embodiment will be described with reference toFIG. 6.

As shown in FIG. 6, a feeling-expressing-word processing device 1according to the second embodiment is similar to thefeeling-expressing-word processing device according to the firstembodiment (refer to FIG. 1) in that the feeling-expressing-wordprocessing device 1 according to the second embodiment includes afeeling information calculating unit 11 and a feeling-expressing-wordextracting unit 12. However, the feeling-expressing-word processingdevice 1 according to the second embodiment differs from thefeeling-expressing-word processing device 1 according to the firstembodiment in that the feeling information calculating unit 11 includesa face detecting unit 112 and a finger detecting unit 113. Hereinafter,differences from the first embodiment will be mainly described.

The face detecting unit 112 detects a face portrayed in a still image ina similar manner to the face detecting unit 111 according to the firstembodiment. The face detecting unit 112 calculates a center coordinate,a width, and a height of a detected face region as face information.

The finger detecting unit 113 calculates feeling information bydetecting fingers (a hand) portrayed in the still image and calculatingthe number of extended fingers. When calculating the number of extendedfingers, the finger detecting unit 113 uses the face informationcalculated by the face detecting unit 112 to identify a hand regioncandidate and detects the number of extended fingers from the identifiedhand region. As a method for identifying a hand region candidate, forexample, a method can be used which identifies a region with a largestarea among flesh-colored regions near a face region as a hand regioncandidate. Alternatively, as the method for identifying a hand regioncandidate, a method described in Patent Publication JP-A-2003-346162 maybe used or other methods may be used.

The feeling-expressing-word database 21 according to the secondembodiment has a number of fingers table. A data configuration of thenumber of fingers table will be described with reference to FIG. 7.Examples of data items of the number of fingers table include a numberof fingers item and a feeling-expressing-word item. The number offingers item stores the number of fingers detected by the fingerdetecting unit 113. The feeling-expressing-word item storesfeeling-expressing-words corresponding to the number of fingers.

Using the number of fingers table shown in FIG. 7. “guu (word describinga clenched hand; a fist)” which expresses a clenched hand is extractedas a feeling-expressing word when the number of extended fingers is “0”,“piisu (Japanese transcription of “peace”; usually describes the peacesign)” which expresses a peace sign is extracted as a feeling-expressingword when the number of extended fingers is “2”, and “pah (worddescribing an open hand)” which expresses an open hand is extracted as afeeling-expressing word when the number of extended fingers is “5”.

Next, an operation of the feeling-expressing-word processing deviceaccording to the second embodiment will be described with reference toFIG. 8.

First, when a signal of a still image is inputted to thefeeling-expressing-word processing device 1, the face detecting unit 112of the feeling information calculating unit 11 detects faces portrayedin the still image and calculates face information (step S201).

Next, the finger detecting unit 113 of the feeling informationcalculating unit 11 detects the number of extended fingers portrayed inthe still image using the face information calculated in step S201 (stepS202).

Subsequently, the feeling-expressing-word extracting unit 12 judgeswhether or not the number of fingers detected in step S202 is 0 (stepS203). When a “yes” judgment is made (YES in step S203), thefeeling-expressing-word extracting unit 12 extracts and outputs thefeeling-expressing word “guu” which is stored in association with “0”fingers from the number of fingers table of the feeling-expressing-worddatabase 21 shown in FIG. 7 (step S204). Subsequently, the presentoperation is terminated.

On the other hand, when it is judged in step S203 that the number offingers is not 0 (NO in step S203), the feeling-expressing-wordextracting unit 12 judges whether or not the number of fingers is 2(step S205). When a “yes” judgment is made (YES in step S205), thefeeling-expressing-word extracting unit 12 extracts and outputs thefeeling-expressing word “piisu” which is stored in association with “2”fingers from the number of fingers table (step S206). Subsequently, thepresent operation is terminated.

Meanwhile, when it is judged in step S205 that the number of fingers isnot 2 (NO in step S205), the feeling-expressing-word extracting unit 12judges whether or not the number of fingers is 5 (step S207). When a“yes” judgment is made (YES in step S207), the feeling-expressing-wordextracting unit 12 extracts and outputs the feeling-expressing word“pah” which is stored in association with “5” fingers from the number offingers table (step S208). Subsequently, the present operation isterminated.

On the other hand, when it is judged in step S207 that the number offingers is not 5 (NO in step S207), the present operation is terminatedwithout extracting a feeling-expressing word.

As described above, with the feeling-expressing-word processing device 1according to the second embodiment, feeling-expressing wordscorresponding to the number of extended fingers in a still image can beextracted and outputted. Accordingly, a gesture made by the fingers of aphotographed person can be clarified and emphasized. In other words,since a situation of a scene or a condition of an object present in thescene at the time of photography of a still image can be clarified andemphasized, an impression of the atmosphere of the scene or the objectcan be pictured in a person's mind as though the person was actually atthe photographed scene.

Moreover, while the number of fingers is used as feeling information bythe feeling-expressing-word processing device 1 according to the secondembodiment, feeling information is not limited thereto. In addition tothe number of fingers, the number of peoples' faces, a tilt of a face, adegree of a smile which are included in feeling information according tothe first embodiment may be used in combination.

Third Embodiment

Next, a feeling-expressing-word processing device according to a thirdembodiment will be described. The feeling-expressing-word processingdevice according to the third embodiment represents an example where asignal of a moving image is inputted as an input signal, the number ofdynamic bodies, a travel distance of a dynamic body, or transitioninformation of a dynamic body in the moving image, or a luminance changeof the moving image is calculated as feeling information, and afeeling-expressing word corresponding to the feeling information isextracted and outputted.

First, a configuration of the feeling-expressing-word processing deviceaccording to the third embodiment will be described with reference toFIG. 9.

As shown in FIG. 9, a feeling-expressing-word processing device 1according to the third embodiment is similar to thefeeling-expressing-word processing device 1 according to the firstembodiment (refer to FIG. 1) in that the feeling-expressing-wordprocessing device 1 according to the third embodiment includes a feelinginformation calculating unit 11 and a feeling-expressing-word extractingunit 12. However, the feeling-expressing-word processing device 1according to the third embodiment differs from thefeeling-expressing-word processing device 1 according to the firstembodiment in that the feeling information calculating unit 11 includesa dynamic body detecting unit 114. Hereinafter, differences from thefirst embodiment will be mainly described.

The dynamic body detecting unit 114 detects dynamic bodies by analyzingan inputted moving image, and calculates feeling information bycalculating the number of dynamic bodies, a travel distance of a dynamicbody, transition information of a dynamic body, or luminance change.

As a method of detecting a dynamic body, for example, a method can beused which calculates a difference in values of pixels at samecoordinates between a current frame image and a previous frame image(for example, a frame image that is one frame image prior to the currentframe image) and detects a group of pixels whose differences exceed athreshold as a dynamic body.

A travel distance of a dynamic body can be obtained by, for example,calculating a difference between a position of a center of gravity of adynamic body on a current frame image and a position of the center ofgravity of the dynamic body shown in a previous frame image whichcorresponds to a vicinity of a position of the dynamic body portrayed inthe current frame image.

Transition information of a dynamic body can be obtained by, forexample, judging and quantifying a direction of a motion vector of adynamic body and calculating a change over time of quantified values.For example, a direction quantifying table shown in FIG. 10 can be usedwhen quantifying a direction of a motion vector of a dynamic body. Inthis case, for example, when a dynamic body is alternately repeatingmovements in negative and positive directions with respect to ahorizontal axis, transition information is calculated as “0101”.

A luminance change can be calculated by, for example, calculating adifference between an average of luminance values of the current frameimage and an average of luminance values of a previous frame image orcalculating a value which quantifies a difference between averages. Forexample, a value “a” which quantifies a difference between averages canbe calculated according to Expressions (1) to (3) below, where “d”denotes a difference between averages and “T” denotes (>0) a threshold.

When |d|<T

a=0  Expression (1)

When d≧T

a=1  Expression (2)

When d≦−T

a=−1  Expression (3)

The feeling-expressing-word database 21 according to the thirdembodiment has a number of dynamic bodies table, a dynamic body traveldistance table, a dynamic body transition information table, and aluminance change table.

A data configuration of the number of dynamic bodies table will bedescribed with reference to FIG. 11. Examples of data items of thenumber of dynamic bodies table include a number of dynamic bodies itemand a feeling-expressing-word item. The number of dynamic bodies itemstores the number of dynamic bodies detected by the dynamic bodydetecting unit 114. The feeling-expressing-word item storesfeeling-expressing-words corresponding to the number of dynamic bodies.As the feeling-expressing words in the number of dynamic bodies table,words that more dramatically express a clamor at a scene are used inproportion to the number of dynamic bodies.

Using the number of dynamic bodies table shown in FIG. 11, “shiin” whichexpresses silence is extracted as a feeling-expressing word when thenumber of dynamic bodies is “0”, “uro uro (word describing someonewandering about aimlessly; hanging around)” is extracted as afeeling-expressing word when the number of dynamic bodies is “1”, and“gocha gocha” which expresses a clamor is extracted as afeeling-expressing word when the number of dynamic bodies is “5” ormore.

A data configuration of the dynamic body travel distance table will bedescribed with reference to FIG. 12. Examples of data items of thedynamic body travel distance table include a dynamic body traveldistance item and a feeling-expressing-word item. The dynamic bodytravel distance item stores travel distances of dynamic bodies ascalculated by the dynamic body detecting unit 114. A travel distance ofa dynamic body is expressed using a value normalized so as to range from“0.0” to “1.0”. The feeling-expressing-word item storesfeeling-expressing-words corresponding to the travel distance of adynamic body. As the feeling-expressing words in the dynamic body traveldistance table, words that more dramatically express a movement speedare used in proportion to the magnitude of a travel distances of adynamic body.

Using the dynamic body travel distance table shown in FIG. 12, “yoroyoro (word describing something unsteady on its feet and unstable;tottering)” is extracted as a feeling-expressing word when the traveldistance of a dynamic body is equal to or more than “0.0” and less than“0.1”, “fura fura (word describing tottering or staggering)” isextracted as a feeling-expressing word when the travel distance of thedynamic body is equal to or more than “0.1” and less than “0.2”, and“dasshu (Japanese transcription of dash)” is extracted as afeeling-expressing word when the travel distance of the dynamic body isequal to or more than “0.9” and equal to or less than “1.0”.

A data configuration of the dynamic body transition information tablewill be described with reference to FIG. 13. Examples of data items ofthe dynamic body transition information table include a dynamic bodytransition information item and a feeling-expressing-word item. Thedynamic body transition information item stores dynamic body transitioninformation calculated by the dynamic body detecting unit 114. Thefeeling-expressing-word item stores feeling-expressing-wordscorresponding to the dynamic body transition information. As thefeeling-expressing words in the dynamic body transition informationtable, words are used which express a repetitive movement correspondingto a periodicity that is recognized based on dynamic body transitioninformation.

Using the dynamic body transition information table shown in FIG. 13,“uro uro” is extracted as a feeling-expressing word when the dynamicbody transition information is “0101” or “1010”, “suta suta (worddescribing walking hurriedly)” is extracted as a feeling-expressing wordwhen the dynamic body transition information is “0000” or “1111”, and“pyon pyon (word describing hopping or skipping agilely)” is extractedas a feeling-expressing word when the dynamic body transitioninformation is “2323” or “3232”.

A data configuration of the luminance change table will be describedwith reference to FIG. 14. Examples of data items of the luminancechange table include a luminance change item and afeeling-expressing-word item. The luminance change item stores aluminance change calculated by the dynamic body detecting unit 114. Theluminance changes shown in FIG. 14 are expressed by quantified valuescalculated according to Expressions (1) to (3) above. Thefeeling-expressing-word item stores feeling-expressing-wordscorresponding to luminance change. As the feeling-expressing words inthe luminance change table, words expressing a situation where lightingis turned on are used when luminance changes to a higher value and wordsexpressing a situation where lighting is turned off are used whenluminance changes to a lower value.

Using the luminance change table shown in FIG. 14, “hyun (word roughlyequivalent to zing)” which expresses a light being turned off isextracted as a feeling-expressing word when the luminance change is“−1”, and “Oka (word roughly equivalent to flash)” which expresses alight being turned on is extracted as a feeling-expressing word when theluminance change is “1”.

Moreover, the number of dynamic bodies, a travel distance of a dynamicbody, dynamic body transition information, and luminance change may beexpressed using values other than those described above. In addition, asfeeling information, any one of the number of dynamic bodies, a traveldistance of a dynamic body, dynamic body transition information, andluminance change may be used, or a plurality may be used in combination.Furthermore, in addition to the feeling information used in the thirdembodiment, any one of or a plurality of types of feeling informationused in the first and second embodiments may be used in combination withthe feeling information used in the third embodiment.

Next, an operation of the feeling-expressing-word processing deviceaccording to the third embodiment will be described with reference toFIG. 15. For this operation example, a case where dynamic bodytransition information is used as feeling information will be described.

First, when a signal of a moving image is inputted to thefeeling-expressing-word processing device 1, the dynamic body detectingunit 114 of the feeling information calculating unit 11 detects adynamic body portrayed in the moving image and calculates dynamic bodytransition information (step S301).

Subsequently, the feeling-expressing-word extracting unit 12 judgeswhether or not the dynamic body transition information calculated instep S301 is “0101” or “1010” (step S302). When a “yes” judgment is made(YES in step S302), the feeling-expressing-word extracting unit 12extracts and outputs the feeling-expressing word “uro uro” which isstored in association with dynamic body transition information “0101”and “1010” from the dynamic body transition information table of thefeeling-expressing-word database 21 shown in FIG. 13 (step S303). Thepresent operation is then terminated.

On the other hand, when it is judged in step S302 that the dynamic bodytransition information is neither “0101” nor “1010” (NO in step S302),the feeling-expressing-word extracting unit 12 judges whether or not thedynamic body transition information is “0000” or “1111” (step S304).When a “yes” judgment is made (YES in step S304), thefeeling-expressing-word extracting unit 12 extracts and outputs thefeeling-expressing word “suta suta” which is stored in association withdynamic body transition information “0000” and “1111” from the dynamicbody transition information table (step S305). The present operation isthen terminated.

Meanwhile, when it is judged in step S304 that the dynamic bodytransition information is neither “0000” nor “1111” (NO in step S304),the feeling-expressing-word extracting unit 12 judges whether or not thedynamic body transition information is “2323” or “3232” (step S306).When a “yes” judgment is made (YES in step S306), thefeeling-expressing-word extracting unit 12 extracts and outputs thefeeling-expressing word “pyon pyon” which is stored in association withdynamic body transition information “2323” and “3232” from the dynamicbody transition information table (step S307). The present operation isthen terminated.

On the other hand, when it is judged in step S306 that the dynamic bodytransition information is neither “2323” nor “3232” (NO in step S306),the present operation is terminated without extracting afeeling-expressing word.

As described above, with the feeling-expressing-word processing device 1according to the third embodiment, feeling-expressing wordscorresponding to the number of dynamic bodies, a travel distance of adynamic body, or transition information of a dynamic body in a movingimage as well as a luminance change of the moving image can be extractedand outputted. Accordingly, since a temporal change of a scene or amovement of an object present in the scene at the time of photography ofa moving image can be clarified and emphasized, an impression of theatmosphere of the scene or the object can be pictured in a person's mindas though the person was actually at the photographed scene.Furthermore, by viewing a feeling-expressing word, the temporal changeof a scene of photography or the movement of an object present in thescene can be perceived without having to view an entire moving image.

Fourth Embodiment

Next, a feeling-expressing-word processing device according to a fourthembodiment will be described. The feeling-expressing-word processingdevice according to the fourth embodiment represents an example where afeeling-expressing-word outputted from the feeling-expressing-wordextracting unit 12 of the feeling-expressing-word processing device 1according to the first embodiment is superimposed on an externallyinputted still image and displayed by a display device 5.

A configuration of the feeling-expressing-word processing deviceaccording to the fourth embodiment will be described with reference toFIG. 16. As shown in FIG. 16, a feeling-expressing-word processingdevice 1 according to the fourth embodiment differs from thefeeling-expressing-word processing device 1 according to the firstembodiment (refer to FIG. 1) in that the feeling-expressing-wordprocessing device 1 according to the fourth embodiment includes asuperimposing unit 31 in addition to the feeling information calculatingunit 11 and the feeling-expressing-word extracting unit 12. Hereinafter,differences from the first embodiment will be mainly described.

The superimposing unit 31 includes a feeling-expressing-wordsuperimposed image generating unit 311. The feeling-expressing-wordsuperimposed image generating unit 311 uses an inputted still image anda feeling-expressing word outputted by the feeling-expressing-wordextracting unit 12 to generate a feeling-expressing-word superimposedimage in which the feeling-expressing word is superimposed on the stillimage. The feeling-expressing-word superimposed image generating unit311 generates a feeling-expressing-word superimposed image bysuperimposing a feeling-expressing word based on font informationdetermined in advance at a predetermined position of a still image. Forexample, font information includes a font (character shape), a font size(character size), and character color.

The superimposing unit 31 causes the display device 5 to display thefeeling-expressing-word superimposed image generated by thefeeling-expressing-word superimposed image generating unit 311.

FIG. 17 shows an example of a feeling-expressing-word superimposed imagedisplayed on the display device 5. A feeling-expressing word “niko niko”that has been extracted according to the degree of a smile issuperimposed on the still image shown in FIG. 17.

As described above, with the feeling-expressing-word processing device 1according to the fourth embodiment, a feeling-expressing wordcorresponding to the number of faces, a tilt of a face, or a degree of asmile in a still image can be extracted and displayed superimposed onthe still image. Accordingly, since a situation of a scene or acondition of an object present in the scene at the time of photographyof a still image can be clarified and emphasized, an impression of theatmosphere of the scene or the object can be pictured in a person's mindas though the person was actually at the photographed scene.

Moreover, while a case where a feeling-expressing-word outputted by thefeeling-expressing-word extracting unit 12 according to the firstembodiment is superimposed on a still image has been described in thefourth embodiment, the fourth embodiment can be similarly applied to acase where a feeling-expressing-word outputted by thefeeling-expressing-word extracting unit 12 according to the secondembodiment is superimposed on a still image or to a case where afeeling-expressing-word outputted by the feeling-expressing-wordextracting unit 12 according to the third embodiment is superimposed ona moving image.

Fifth Embodiment

Next, a feeling-expressing-word processing device according to a fifthembodiment will be described. The feeling-expressing-word processingdevice according to the fifth embodiment represents an example where, inaddition to contents of the fourth embodiment described above, asuperimposing position, font information, and the like whensuperimposing a feeling-expressing word are determined based on faceinformation calculated by the face detecting unit 112.

A configuration of the feeling-expressing-word processing deviceaccording to the fifth embodiment will be described with reference toFIG. 18. As shown in FIG. 18, a feeling-expressing-word processingdevice 1 according to the fifth embodiment differs from thefeeling-expressing-word processing device 1 according to the fourthembodiment (refer to FIG. 16) in that the superimposing unit 31 furtherincludes a superimposing condition determining unit 312 and that theface detecting unit 112 according to the second embodiment is includedin place of the face detecting unit 111. Hereinafter, differences fromthe fourth embodiment will be mainly described.

The superimposing condition determining unit 312 determines asuperimposing position of a feeling-expressing word according to faceinformation (a center coordinate of a face region, a width of the faceregion, a height of the face region) calculated by the face detectingunit 112. For example, a position where a feeling-expressing word issuperimposed is favorably a position that does not overlap with a faceregion or is a position that is near the face region. Accordingly, sincethe feeling-expressing word is prevented from overlapping with the faceregion which is likely to attract attention, visibility of the image canbe maintained. In addition, by superimposing the feeling-expressing wordnear the face region which is likely to attract attention, an impressionof the atmosphere of a scene or an object present in the scene can bepictured in a person's mind as though the person was actually at thephotographed scene.

The superimposing condition determining unit 312 analyzes an inputtedstill image and determines font information including a font, a fontsize, and a character color of the feeling-expressing word to besuperimposed. Specifically, for example, a font can be determinedaccording to a photographed scene by analyzing the still image. Inaddition, a size of a region of an object in the still image can beanalyzed, whereby a font size can be increased when the region of theobject is large and reduced when the region of the object is small.Furthermore, a complementary color of a color that has a highestfrequency of appearance in a region on which the feeling-expressing wordis to be superimposed can be selected as the character color.Accordingly, visibility of the image can be maintained.

The feeling-expressing-word superimposed image generating unit 311superimposes the feeling-expressing word at a position determined by thesuperimposing condition determining unit 312 based on font informationdetermined by the superimposing condition determining unit 312 togenerate a feeling-expressing-word superimposed image.

As described above, with the feeling-expressing-word processing device 1according to the fifth embodiment, feeling-expressing wordscorresponding to the number of faces, a tilt of a face, and a degree ofa smile in a still image can be extracted and displayed superimposednear a face region so as not to overlap with the face region.Accordingly, since a situation of a scene or a condition of an objectpresent in the scene at the time of photography of a still image can befurther clarified and emphasized, an impression of the atmosphere of thescene or the object can be pictured in a person's mind as though theperson was actually at the photographed scene.

Sixth Embodiment

Next, a feeling-expressing-word processing device according to a sixthembodiment will be described. The feeling-expressing-word processingdevice according to the sixth embodiment represents an example where, inaddition to contents of the fifth embodiment described above, asuperimposing position, font information, and the like whensuperimposing a feeling-expressing word are determined based on faceinformation calculated by the face detecting unit 112 and on a handregion identified by the finger detecting unit 113.

A configuration of the feeling-expressing-word processing deviceaccording to the sixth embodiment will be described with reference toFIG. 19. As shown in FIG. 19, a feeling-expressing-word processingdevice 1 according to the sixth embodiment differs from thefeeling-expressing-word processing device 1 according to the fifthembodiment (refer to FIG. 18) in that the feeling-expressing-wordprocessing device 1 according to the sixth embodiment further includesthe finger detecting unit 113 according to the second embodiment.Hereinafter, differences from the fifth embodiment will be mainlydescribed.

The superimposing condition determining unit 312 determines asuperimposing position of a feeling-expressing word according to faceinformation calculated by the face detecting unit 112 and a hand regionidentified by the finger detecting unit 113. For example, in addition toa position that does not overlap with a face region or a position nearthe face region which have been described in the fifth embodiment above,a position where a feeling-expressing word is superimposed is favorablya position that does not overlap with a hand region or is a positionthat is near the hand region.

As described above, with the feeling-expressing-word processing device 1according to the sixth embodiment, feeling-expressing wordscorresponding to the number of faces, a tilt of a face, a degree of asmile, or the number of extended fingers in a still image can beextracted and displayed superimposed near a face region or a hand regionso as not to overlap with the face region or the hand region.Accordingly, since a situation of a scene or a condition of an objectpresent in the scene at the time of photography of a still image can befurther clarified and emphasized, an impression of the atmosphere of thescene or the object can be pictured in a person's mind as though theperson was actually at the photographed scene.

Seventh Embodiment

Next, a feeling-expressing-word processing device according to a seventhembodiment will be described. The feeling-expressing-word processingdevice according to the seventh embodiment represents an example where,in addition to contents of the sixth embodiment described above, anexternally inputted still image is converted into a sketchy image, and afeeling-expressing word is superimposed on the converted sketchy imageand displayed on the display device 5.

A configuration of the feeling-expressing-word processing deviceaccording to the seventh embodiment will be described with reference toFIG. 20. As shown in FIG. 20, a feeling-expressing-word processingdevice 1 according to the seventh embodiment differs from thefeeling-expressing-word processing device 1 according to the sixthembodiment (refer to FIG. 19) in that the feeling-expressing-wordprocessing device 1 according to the seventh embodiment further includesan image converting unit 313. Hereinafter, differences from the sixthembodiment will be mainly described.

The image converting unit 313 converts an inputted still image into asketchy image. As a method of conversion into a sketchy image, forexample, a technique described in WO2006/106750 can be used. Since fineshading can be omitted and the number of colors can be reduced in astill image by converting the still image into a sketchy image, edgescan be emphasized.

The feeling-expressing-word superimposed image generating unit 311superimposes a feeling-expressing word on the sketchy image converted bythe image converting unit 313 to generate a feeling-expressing-wordsuperimposed image. In doing so, the feeling-expressing word issuperimposed at a position determined by the superimposing conditiondetermining unit 312 using a font, a font size, and a character colordetermined by the superimposing condition determining unit 312.

FIG. 21 shows an example of a feeling-expressing-word superimposed imagedisplayed on the display device 5. The still image shown in FIG. 21 is astill image photographed inside an office which has been converted intoa sketchy image, and a feeling-expressing word “potsuun (word describinga state of loneliness, solitude)” has been superimposed.

As described above, with the feeling-expressing-word processing device 1according to the seventh embodiment, an inputted still image can beconverted into a sketchy image and a feeling-expressing word can besuperimposed on the converted sketchy image. Accordingly, since primaryshading, colors, and edges in the still image can be accentuated, asubject can be clarified and emphasized. In other words, since asituation of a scene or a condition of an object present in the scene atthe time of photography of a still image can be further clarified andemphasized by superimposing a feeling-expressing word on a sketchyimage, an impression of the atmosphere of the scene or the object can bepictured in a person's mind as though the person was actually at thephotographed scene.

Eighth Embodiment

Next, a feeling-expressing-word processing device according to an eighthembodiment will be described. The feeling-expressing-word processingdevice according to the eighth embodiment represents an example where afeeling-expressing-word outputted from the feeling-expressing-wordextracting unit 12 of the feeling-expressing-word processing device 1according to the third embodiment is superimposed on an externallyinputted moving image and displayed by a display device 5 and, inaddition, a superimposing position, font information, and the like whensuperimposing the feeling-expressing word are determined based onvariation information which indicates a movement of an object or thelike.

A configuration of the feeling-expressing-word processing deviceaccording to the eighth embodiment will be described with reference toFIG. 22. As shown in FIG. 22, a feeling-expressing-word processingdevice 1 according to the eighth embodiment differs from thefeeling-expressing-word processing device 1 according to the thirdembodiment (refer to FIG. 9) in that the feeling-expressing-wordprocessing device 1 according to the eighth embodiment includes thesuperimposing unit 31 in addition to the feeling information calculatingunit 11 and the feeling-expressing-word extracting unit 12. Hereinafter,differences from the third embodiment will be mainly described.

The superimposing unit 31 includes the superimposing conditiondetermining unit 312 and the feeling-expressing-word superimposed imagegenerating unit 311.

The superimposing condition determining unit 312 calculates variationinformation based on a dynamic body detected by the dynamic bodydetecting unit 114 and determines a superimposing position of afeeling-expressing word according to the variation information. Forexample, information indicating a movement of the dynamic bodycorresponds to variation information. Specifically, for example, when amoving image shows a pedestrian, a superimposing position is determinedin accordance with variation information indicating a movement of thepedestrian. Accordingly, a feeling-expressing word “suta suta” whichexpresses a walking motion can be superimposed on the moving image inaccordance with the movement of the pedestrian.

Moreover, variation information is not limited to information indicatingthe movement of a dynamic body. For example, information indicating aregion with a small change in color, a small change in luminance, or asmall edge change which is obtained by analyzing a moving image can becalculated as variation information. In this case, for example, when amoving image shows a street scene, a region of a building wall or thesky can be detected and a feeling-expressing word can be superimposed onthe detected region.

The superimposing condition determining unit 312 analyzes an inputtedmoving image and determines font information including a font, a fontsize, and a character color of the feeling-expressing word to besuperimposed. Specifically, for example, a font can be determinedaccording to a photographed scene by analyzing the moving image. Inaddition, a size of a region of an object in the moving image can beanalyzed, whereby a font size can be increased when the region of theobject is large and reduced when the region of the object is small.Furthermore, a complementary color of a color that has a highestfrequency of appearance in a region on which the feeling-expressing wordis to be superimposed can be selected as the character color.Accordingly, visibility of the image can be maintained.

The feeling-expressing-word superimposed image generating unit 311 usesan inputted moving image and a feeling-expressing word outputted by thefeeling-expressing-word extracting unit 12 to generate afeeling-expressing-word superimposed image in which thefeeling-expressing word is superimposed on the moving image. Thefeeling-expressing-word superimposed image generating unit 311superimposes the feeling-expressing word at the position determined bythe superimposing condition determining unit 312 based on fontinformation determined by the superimposing condition determining unit312 to generate the feeling-expressing-word superimposed image.

The superimposing unit 31 causes the display device 5 to display thefeeling-expressing-word superimposed image generated by thefeeling-expressing-word superimposed image generating unit 311.

As described above, with the feeling-expressing-word processing device 1according to the eighth embodiment, feeling-expressing wordscorresponding to the number of dynamic bodies, a travel distance of adynamic body, or transition information of a dynamic body in a movingimage as well as a luminance change of the moving image can be extractedand superimposed in accordance with a movement or a change in the movingimage. Accordingly, since a temporal change of a scene or a movement ofan object present in the scene at the time of photography of a movingimage can be further clarified and emphasized, an impression of theatmosphere of the scene or the object can be pictured in a person's mindas though the person was actually at the photographed scene.

Moreover, the respective embodiments described above are forillustrative purposes only and are not intended to preclude theapplication of various modifications and techniques not clearlyspecified in the respective embodiments. In other words, variousmodifications can be made to the present invention without departingfrom the spirit and scope thereof. For example, the respectiveembodiments described above can be suitably combined with each other.

Although a part of or all of the respective embodiments above can bedescribed as in the following Appendices, the following Appendices arein no way intended to limit the present invention.

(Appendix 1) A feeling-expressing-word processing device comprising: afeeling information calculating unit for analyzing a photographed image,and calculating feeling information which indicates a situation of ascene shown in the photographed image or a condition of an objectpresent in the scene; and a feeling-expressing-word extracting unit forextracting, from among feeling-expressing words which express feelingsand are stored in advance in association with the feeling information, afeeling-expressing word which corresponds to the feeling informationcalculated by the feeling information calculating unit.

(Appendix 2) The feeling-expressing-word processing device according toAppendix 1, wherein the feeling information calculating unit calculatesthe feeling information which at least includes any of the number offaces, a tilt of a face, a degree of a smile, and the number of fingers.

(Appendix 3) The feeling-expressing-word processing device according toAppendix 2, wherein when the feeling information includes the number offaces, the feeling-expressing-word extracting unit extracts thefeeling-expressing-word which expresses excitement at a scene so thatthe greater the number of faces, the more dramatically the excitement atthe scene is expressed.

(Appendix 4) The feeling-expressing-word processing device according toAppendix 2 or 3, wherein when the feeling information includes the tiltof a face, the feeling-expressing-word extracting unit extracts thefeeling-expressing-word which expresses intimacy so that the greater thetilts of two faces side by side in directions approaching each other,the more deeply intimacy is expressed.

(Appendix 5) The feeling-expressing-word processing device according toany one of Appendices 2 to 4, wherein when the feeling informationincludes the degree of a smile, the feeling-expressing-word extractingunit extracts the feeling-expressing-word which expresses happiness orjoy so that the higher the degree of the smile, the more dramaticallyhappiness or joy is expressed, and extracts the feeling-expressing-wordwhich expresses anger or sadness so that the lower the degree of thesmile, the more dramatically anger or sadness is expressed.

(Appendix 6) The feeling-expressing-word processing device according toany one of Appendices 2 to 5, wherein when the feeling informationincludes the number of fingers, the feeling-expressing-word extractingunit extracts the feeling-expressing-word which expresses a clenchedhand when the number of fingers is 0, extracts thefeeling-expressing-word which expresses a peace sign when the number offingers is 2, and extracts the feeling-expressing-word which expressesan open hand when the number of fingers is 5.

(Appendix 7) The feeling-expressing-word processing device according toany one of Appendices 1 to 6, wherein the feeling-expressing-word is atleast an onomatopoeic word or a mimetic word.

(Appendix 8) A feeling-expressing-word processing method comprising: afeeling information calculating step of analyzing a photographed image,and calculating feeling information which indicates a situation of ascene shown in the photographed image or a condition of an objectpresent in the scene; and a feeling-expressing word extracting step ofextracting, from among feeling-expressing words which express feelingsand are stored in advance in association with the feeling information, afeeling-expressing word which corresponds to the feeling informationcalculated by the feeling information calculating unit.

(Appendix 9) A feeling-expressing-word processing program which causes acomputer to execute the respective steps according to Appendix 8.

The present application claims priority to Japanese Patent ApplicationNo. 2010-261038, filed on Nov. 24, 2010, the entirety of which isincorporated herein by reference.

The feeling-expressing-word processing device, thefeeling-expressing-word processing method, and thefeeling-expressing-word processing program according to the presentinvention are suitable for enabling an impression of the atmosphere of ascene or an object present in the scene at the time of photography to bepictured in a person's mind as though the person was actually at thephotographed scene.

-   1 feeling-expressing-word processing device-   5 display device-   11 feeling information calculating unit-   12 feeling-expressing-word extracting unit-   21 feeling-expressing-word database-   31 superimposing unit-   111, 112 face detecting unit-   113 finger detecting unit-   114 dynamic body detecting unit-   311 feeling-expressing-word superimposed image generating unit-   312 superimposing condition determining unit-   313 image converting unit

1. A feeling-expressing-word processing device comprising: a feelinginformation calculating unit for analyzing a photographed image,detecting a face appearing in the image and a finger appearing in theimage, and calculating feeling information which indicates a situationof a scene shown in a photographed image or a condition of an objectpresent in the scene on the basis of the face and the finger in theimage; and a feeling-expressing-word extracting unit for extracting,from among feeling-expressing words which express feelings and arestored in advance in association with the feeling information, afeeling-expressing word which corresponds to the feeling informationcalculated by the feeling information calculating unit.
 2. Thefeeling-expressing-word processing device according to claim 1, whereinthe feeling information calculating unit calculates the feelinginformation which at least includes any of the number of faces, a tiltof the face, a degree of a smile, and the number of fingers.
 3. Thefeeling-expressing-word processing device according to claim 2, whereinwhen the feeling information includes the number of faces, thefeeling-expressing-word extracting unit extracts thefeeling-expressing-word which expresses excitement at a scene so thatthe greater the number of faces, the more dramatically the excitement atthe scene is expressed.
 4. The feeling-expressing-word processing deviceaccording to claim 2, wherein when the feeling information includes thetilt of a face, the feeling-expressing-word extracting unit extracts thefeeling-expressing-word which expresses intimacy so that the greater thetilts of two faces side by side in directions approaching each other,the more deeply intimacy is expressed.
 5. The feeling-expressing-wordprocessing device according to claim 2, wherein when the feelinginformation includes the degree of a smile, the feeling-expressing-wordextracting unit extracts the feeling-expressing-word which expresseshappiness or joy so that the higher the degree of the smile, the moredramatically happiness or joy is expressed, and extracts thefeeling-expressing-word which expresses anger or sadness so that thelower the degree of the smile, the more dramatically anger or sadness isexpressed.
 6. The feeling-expressing-word processing device according toclaim 2, wherein when the feeling information includes the number offingers, the feeling-expressing-word extracting unit extracts thefeeling-expressing-word which expresses a clenched hand when the numberof fingers is 0, extracts the feeling-expressing-word which expresses apeace sign when the number of fingers is 2, and extracts thefeeling-expressing-word which expresses an open hand when the number offingers is
 5. 7. The feeling-expressing-word processing device accordingto claim 1, wherein the feeling-expressing-word is at least anonomatopoeic word or a mimetic word.
 8. A feeling-expressing-wordprocessing method comprising: a feeling information calculating step ofanalyzing a photographed image, detecting a face appearing in the imageand a finger appearing in the image, and calculating feeling informationwhich indicates a situation of a scene shown in a photographed image ora condition of an object present in the scene on the basis of the faceand the finger; and a feeling-expressing word extracting step ofextracting, from among feeling-expressing words which express feelingsand are stored in advance in association with the feeling information, afeeling-expressing word which corresponds to the feeling informationcalculated in the feeling information calculating step.
 9. Afeeling-expressing-word processing program which causes a computer toexecute the respective steps according to claim
 8. 10. Thefeeling-expressing-word processing device according to claim 3, whereinwhen the feeling information includes the tilt of a face, thefeeling-expressing-word extracting unit extracts thefeeling-expressing-word which expresses intimacy so that the greater thetilts of two faces side by side in directions approaching each other,the more deeply intimacy is expressed.
 11. The feeling-expressing-wordprocessing device according to claim 3, wherein when the feelinginformation includes the degree of a smile, the feeling-expressing-wordextracting unit extracts the feeling-expressing-word which expresseshappiness or joy so that the higher the degree of the smile, the moredramatically happiness or joy is expressed, and extracts thefeeling-expressing-word which expresses anger or sadness so that thelower the degree of the smile, the more dramatically anger or sadness isexpressed.
 12. The feeling-expressing-word processing device accordingto claim 3, wherein when the feeling information includes the degree ofa smile, the feeling-expressing-word extracting unit extracts thefeeling-expressing-word which expresses happiness or joy so that thehigher the degree of the smile, the more dramatically happiness or joyis expressed, and extracts the feeling-expressing-word which expressesanger or sadness so that the lower the degree of the smile, the moredramatically anger or sadness is expressed.
 13. Thefeeling-expressing-word processing device according to claim 3, whereinwhen the feeling information includes the number of fingers, thefeeling-expressing-word extracting unit extracts thefeeling-expressing-word which expresses a clenched hand when the numberof fingers is 0, extracts the feeling-expressing-word which expresses apeace sign when the number of fingers is 2, and extracts thefeeling-expressing-word which expresses an open hand when the number offingers is
 5. 14. The feeling-expressing-word processing deviceaccording to claim 4, wherein when the feeling information includes thenumber of fingers, the feeling-expressing-word extracting unit extractsthe feeling-expressing-word which expresses a clenched hand when thenumber of fingers is 0, extracts the feeling-expressing-word whichexpresses a peace sign when the number of fingers is 2, and extracts thefeeling-expressing-word which expresses an open hand when the number offingers is
 5. 15. The feeling-expressing-word processing deviceaccording to claim 5, wherein when the feeling information includes thenumber of fingers, the feeling-expressing-word extracting unit extractsthe feeling-expressing-word which expresses a clenched hand when thenumber of fingers is 0, extracts the feeling-expressing-word whichexpresses a peace sign when the number of fingers is 2, and extracts thefeeling-expressing-word which expresses an open hand when the number offingers is
 5. 16. The feeling-expressing-word processing deviceaccording to claim 2, wherein the feeling-expressing-word is at least anonomatopoeic word or a mimetic word.
 17. The feeling-expressing-wordprocessing device according to claim 3, wherein thefeeling-expressing-word is at least an onomatopoeic word or a mimeticword.
 18. The feeling-expressing-word processing device according toclaim 4, wherein the feeling-expressing-word is at least an onomatopoeicword or a mimetic word.
 19. The feeling-expressing-word processingdevice according to claim 5, wherein the feeling-expressing-word is atleast an onomatopoeic word or a mimetic word.
 20. Thefeeling-expressing-word processing device according to claim 6, whereinthe feeling-expressing-word is at least an onomatopoeic word or amimetic word.